Title of Invention	SCREEN UNIT FOR REMOVING SOLID PARTICLES
Abstract	1. Screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means far cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush back the viscous mass through the screen element at a pressure higher than the pressure in the supply channel, characterized in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element is gradually less exposed to the backflushing action.

Title of Invention

SCREEN UNIT FOR REMOVING SOLID PARTICLES

Abstract

1. Screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means far cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush back the viscous mass through the screen element at a pressure higher than the pressure in the supply channel, characterized in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element is gradually less exposed to the backflushing action.

Full Text	FORM 2 THE PATENTS ACT, 1970 [39 OF 1970] COMPLETE SPECIFICATION [See Section 10; Rule 13] "SCREEN UNIT FOR REMOVING SOLID PARTICLES" GOYA B.V., of Wethouder Sangersstraat 43, NL-6191 NA Beek, The Netherlands, The following specification particularly describes the nature of the invention and the manner in which it is to be performed:- The invention reiates to a screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means for cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush the viscous mass back through the screen element at a pressure higher than the pressure in the supply channel. Such a screen unit is known from WO-A-9847688, In this known device backflushing is obtained by means of an external pressure agent which increases the pressure of the mass behind the screen, whereas at the same time a discharge valve located at the upstream end of the screen is opened whereby the liquid flows through the screen and then removes the solid particles contained by it. This known device has a number of disadvantages. In the first place rite pressure drop over the screen 13 gradually increasing during the screening phase because the screen is gradually filled up with the solid particles. Otherwise during the backflushing phase there is also pressure difference occuring along the screen which is dependent upon the location on the screen, whereby the cleaning of the screen lacks uniformity. Because of this the dimensions of the screen have to be limited. Also the use of rings as disclosed In WO-A-9B47688 restricts the diameter of the screen. It is an object of the invention to provide a screen unit of the above mentioned type in which the above mentioned disadvantages have been avoided. This and other objects are obtained in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element Is gradually less exposed to the backflushing action. By means of the shutter element it becomes possible to use gradually the screen both during screening and during backfiushing whereby the pressure differences over the screen can be maintained at a constant level thereby improving the efficiency of the screening and of the backflushing. Other characteristics and advantages of the invention with become clear from the following description, reference being made to the annexed drawings, In which : Fig. 1 is a schematic cross-section of a screen unit according to the invention; Fig. 2 Is a cross-section corresponding to fig. 1 in a position at the start of the ereening phase, and Fig. 3 is a cross-section corresponding to fig. 1 in a position at the start of the backfiushing phase. As shown in fig. 1, the screen unit according to the invention comprises a housing 7 having a cylindrical chamber 2 extending over the whole length of the housing 7. One end of the cylindrical chamber 2 is covered by a plate 11 provided with a cylindrical opening 15 providing a guide for a piston rod 16 as will be explained below. The cylindrical opening 15 is covered by a pressure chamber 9 filled with a pressure fluid 8. The pressure chamber 9 Is connected to a control system (not shown) by means of which the pressure of the pressure fluid 8 can be controlled, so as to control the movement of the piston rod 16. The other end of the cylindrical chamber 2 is closed by a cover 17 provided with a cylindrical opening 18 providing a guide for a piston rod 19. Both cylindrical openings 15 and 18 are coaxial with the cylindrical chamber 2, so that they are aligned and both are connected to opposing surfaces of a piston 3 movable within the cylindrical chamber 2. The cylindrical chamber 2 Is composed of two parts, one part 20 having a cross-section substantially corresponding to the cross-section of the piston 3 and a second part 21 having a slightly larger diameter. In the second part 21 a filter screen 10 has been fixed having a genera! cylindrical bush shape and with an internal diameter substantially corresponding to the diameter of the piston 3 and aligned with the inner wall of the first part 20 of the cylindrical chamber 4. The construction of the screen 10 itself can be identical to the screen as disclosed in WO-A-9847688, but other screen constructions can be used as weff e.g. perforated screens. The housing 7 and the filter screen 10 defines a bush like cylindrical space 23 around the screen 10. A channel 6 extends through the housing 7 and Is provided with a valve 12. This channel 6 is further connected to a collector (not shown) for collecting Die solid panicles retained by the screen 10 and removed therefrom during the backflushing phase. The cover 17 has a complicated shape, as shown in fig. 1 and consists essentially out of a central part 27 provided with the bore 18 which serves as a guide for the piston rod 19. Further the cover 17 comprises an intermediate part 28 and an outer ring-shaped part 29. The parts 28 and 29 are shaped in such a way that they provide a channel 24 connecting the bush-like space 23 with a supply of viscous mass from which the particles must be removed. Otherwise, the parts 27,28 and 29 together with the housing 7 form a channel 5 connecting the space 4 with a collector or any other equipment (not shown) for the screened material, in the channel 5 there is provided a valve 13. The operation of this device is as follows: Assuming that the piston is in the position shown in fig. 2 and that the screen is clean, a viscous mass containing solid particles is supplied through channel 24 to the bush-like space 23. Valve 12 being closed the viscous mass is pressed through the exposed part of the screen 10, whereas the cleaned mass Is evacuated through channel 5 and can be supplied either to a receptacle or to a device for further processing this mass. As a result of the flow resistance generated by the screen 10 there is a pressure difference between the space 23 and 21. As solid particles will be retained by the screen 10, this pressure difference will increase, as a result of a decrease of available screen surface. By measuring this pressure difference it is possible to have a control system which will move the piston 3 in fig. 2 to the right, thereby exposing more screen surface to the flowing mass. In this way, the pressure drop is compensated, and the outlet pressure of the viscous mass can be maintained at a substantially constant level, which is important if the screening unit is on line with a further processing unit After some time the piston has arrived in the position shown in fig. 3. In this situation further obstruction of the screen 10 and the copending increasing pressure difference between space 2 and apace 4 cannot anymore be compensated by further movement of the piston in order to increase exposed screen surface. At this moment the screening phase will be slopped. In order to clean the screen, backflushing is applied. This is obtained by closing channel 5 by means of valva 13 and opening valve 12 in channel 6. By means of a pressure increase in chamber 9 the piston 3 is moved to the left in fig. 3, whereby the pressure in space 4 becomes higher than \n space 23. Cleaned mass is pressed through the screen 10 from space 4 to space 23 and there by the sold particles in the screen 10 are removed therefrom and are released through channel 6. Upon movement of the piston 3 to the left in fig. 3, part of the screen surface is covered, which pan is gradually increasing in magnitude. In this way the cleaning pressure, which must be relatively high can be maintained over the whole length of the screen 10. As soon as piston 3 has reached the position shown in fig. 2, valve 12 is closed and valve 13 opened and the screening phase can start again. WE CLAIM : 1. Screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means far cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush back the viscous mass through the screen element at a pressure higher than the pressure in the supply channel, characterized in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element is gradually less exposed to the backflushing action. 2. Screen unit as claimed in claim 1, wherein the screen element and the shutter element have a bush like shape. 3. Screen unit as claimed in claim 2, wherein the screen element and the shutter element have a cylindrical shape. 4 Screen unit as claimed in claim 2 or 3, wherein the shutter element is fanned by a piston inside the screen element and acting simultaneously as pressure element 5. Screen unit as claimed in any one of the preceding claims, wherein a number of screen elements and shutter elements are positioned in the housing in a parallel relationship. 6. Screen unit as claimed in claims 2 and 5, wherein the screen elements and shutter elements are concentrically shaped. 7. Screen unit as claimed in any one of the preceding claims, wherein the screen element is composed of two parallel screen plates in contact with each other and each having a number of screening openings and in that the size of the screening opening of the screen element is defined by adjusting the one screen plate with respect to the other screen plate. Dated this 15th day of July, 2002 [JAMANTA PAL] OF REMFRY & SAGAR ATTORNEY FOR THE APPLICANTS

Full Text

FORM 2
THE PATENTS ACT, 1970
[39 OF 1970]
COMPLETE SPECIFICATION
[See Section 10; Rule 13]
"SCREEN UNIT FOR REMOVING SOLID PARTICLES"
GOYA B.V., of Wethouder Sangersstraat 43, NL-6191 NA Beek, The Netherlands,
The following specification particularly describes the nature of the invention and the manner in which it is to be performed:-

The invention reiates to a screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means for cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush the viscous mass back through the screen element at a pressure higher than the pressure in the supply channel.
Such a screen unit is known from WO-A-9847688,
In this known device backflushing is obtained by means of an external pressure agent which increases the pressure of the mass behind the screen, whereas at the same time a discharge valve located at the upstream end of the screen is opened whereby the liquid flows through the screen and then removes the solid particles contained by it.
This known device has a number of disadvantages. In the first place rite pressure drop over the screen 13 gradually increasing during the screening phase because the screen is gradually filled up with the solid particles. Otherwise during the backflushing phase there is also pressure difference occuring along the screen which is dependent upon the location on the screen, whereby the cleaning of the screen lacks uniformity. Because of this the dimensions of the screen have to be limited. Also the use of rings as disclosed In WO-A-9B47688 restricts the diameter of the screen.
It is an object of the invention to provide a screen unit of the above mentioned type in which the above mentioned disadvantages have been avoided.
This and other objects are obtained in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element Is gradually less exposed to the backflushing action.

By means of the shutter element it becomes possible to use gradually the screen both during screening and during backfiushing whereby the pressure differences over the screen can be maintained at a constant level thereby improving the efficiency of the screening and of the backflushing.
Other characteristics and advantages of the invention with become clear from the following
description, reference being made to the annexed drawings, In which :
Fig. 1 is a schematic cross-section of a screen unit according to the invention;
Fig. 2 Is a cross-section corresponding to fig. 1 in a position at the start of the ereening
phase, and
Fig. 3 is a cross-section corresponding to fig. 1 in a position at the start of the backfiushing phase.
As shown in fig. 1, the screen unit according to the invention comprises a housing 7 having a cylindrical chamber 2 extending over the whole length of the housing 7. One end of the cylindrical chamber 2 is covered by a plate 11 provided with a cylindrical opening 15 providing a guide for a piston rod 16 as will be explained below. The cylindrical opening 15 is covered by a pressure chamber 9 filled with a pressure fluid 8. The pressure chamber 9 Is connected to a control system (not shown) by means of which the pressure of the pressure fluid 8 can be controlled, so as to control the movement of the piston rod 16.
The other end of the cylindrical chamber 2 is closed by a cover 17 provided with a cylindrical opening 18 providing a guide for a piston rod 19. Both cylindrical openings 15 and 18 are coaxial with the cylindrical chamber 2, so that they are aligned and both are connected to opposing surfaces of a piston 3 movable within the cylindrical chamber 2.
The cylindrical chamber 2 Is composed of two parts, one part 20 having a cross-section substantially corresponding to the cross-section of the piston 3 and a second part 21 having a slightly larger diameter. In the second part 21 a filter screen 10 has been fixed having a genera! cylindrical bush shape and with an internal diameter substantially corresponding to the diameter of the piston 3 and aligned with the inner wall of the first part 20 of the cylindrical chamber 4.

The construction of the screen 10 itself can be identical to the screen as disclosed in WO-A-9847688, but other screen constructions can be used as weff e.g. perforated screens. The housing 7 and the filter screen 10 defines a bush like cylindrical space 23 around the screen 10. A channel 6 extends through the housing 7 and Is provided with a valve 12. This channel 6 is further connected to a collector (not shown) for collecting Die solid panicles retained by the screen 10 and removed therefrom during the backflushing phase.
The cover 17 has a complicated shape, as shown in fig. 1 and consists essentially out of a central part 27 provided with the bore 18 which serves as a guide for the piston rod 19. Further the cover 17 comprises an intermediate part 28 and an outer ring-shaped part 29. The parts 28 and 29 are shaped in such a way that they provide a channel 24 connecting the bush-like space 23 with a supply of viscous mass from which the particles must be removed. Otherwise, the parts 27,28 and 29 together with the housing 7 form a channel 5 connecting the space 4 with a collector or any other equipment (not shown) for the screened material, in the channel 5 there is provided a valve 13.
The operation of this device is as follows:
Assuming that the piston is in the position shown in fig. 2 and that the screen is clean, a viscous mass containing solid particles is supplied through channel 24 to the bush-like space 23. Valve 12 being closed the viscous mass is pressed through the exposed part of the screen 10, whereas the cleaned mass Is evacuated through channel 5 and can be supplied either to a receptacle or to a device for further processing this mass.
As a result of the flow resistance generated by the screen 10 there is a pressure difference between the space 23 and 21. As solid particles will be retained by the screen 10, this pressure difference will increase, as a result of a decrease of available screen surface. By measuring this pressure difference it is possible to have a control system which will move the piston 3 in fig. 2 to the right, thereby exposing more screen surface to the flowing mass. In this way, the pressure drop is compensated, and the outlet pressure of the viscous mass can be maintained at a substantially constant level, which is important if the screening unit is on line with a further processing unit
After some time the piston has arrived in the position shown in fig. 3. In this situation further obstruction of the screen 10 and the copending increasing pressure difference

between space 2 and apace 4 cannot anymore be compensated by further movement of the piston in order to increase exposed screen surface. At this moment the screening phase will be slopped.
In order to clean the screen, backflushing is applied. This is obtained by closing channel 5 by means of valva 13 and opening valve 12 in channel 6. By means of a pressure increase in chamber 9 the piston 3 is moved to the left in fig. 3, whereby the pressure in space 4 becomes higher than \n space 23. Cleaned mass is pressed through the screen 10 from space 4 to space 23 and there by the sold particles in the screen 10 are removed therefrom and are released through channel 6.
Upon movement of the piston 3 to the left in fig. 3, part of the screen surface is covered, which pan is gradually increasing in magnitude. In this way the cleaning pressure, which must be relatively high can be maintained over the whole length of the screen 10.
As soon as piston 3 has reached the position shown in fig. 2, valve 12 is closed and valve 13 opened and the screening phase can start again.

WE CLAIM :
1. Screen unit for removing solid particles from a viscous mass, for example molten plastic, comprising a housing provided with a supply channel and a discharge channel for the viscous mass, a screen element in the housing between the supply channel and discharge channel, means far cleaning the screen element by means of backflushing, which means comprise a backflush channel for discharging during backflushing solid particles screened by the screen element and connected to an outflow channel by a shut-off valve and a pressure element which can be operated to flush back the viscous mass through the screen element at a pressure higher than the pressure in the supply channel, characterized in that a shutter element is placed along the screen element and that means are provided to move the shutter element with respect to the screen element such that during the screening phase the screen element is gradually more exposed for screening and during the backflushing phase the screen element is gradually less exposed to the backflushing action.
2. Screen unit as claimed in claim 1, wherein the screen element and the shutter element have a bush like shape.
3. Screen unit as claimed in claim 2, wherein the screen element and the shutter element have a cylindrical shape.
4 Screen unit as claimed in claim 2 or 3, wherein the shutter element is fanned by a piston inside the screen element and acting simultaneously as pressure element
5. Screen unit as claimed in any one of the preceding claims, wherein a number of screen elements and shutter elements are positioned in the housing in a parallel relationship.

6. Screen unit as claimed in claims 2 and 5, wherein the screen elements and shutter elements are concentrically shaped.
7. Screen unit as claimed in any one of the preceding claims, wherein the screen element is composed of two parallel screen plates in contact with each other and each having a number of screening openings and in that the size of the screening opening of the screen element is defined by adjusting the one screen plate with respect to the other screen plate.
Dated this 15th day of July, 2002
[JAMANTA PAL]
OF REMFRY & SAGAR
ATTORNEY FOR THE APPLICANTS

Documents:

abstract1.jpg

in-pct-2002-00955-mum-cancelled pages(21-6-2005).pdf

in-pct-2002-00955-mum-claims(granted)-(21-6-2005).doc

in-pct-2002-00955-mum-claims(granted)-(21-6-2005).pdf

in-pct-2002-00955-mum-correspondence(29-6-2005).pdf

in-pct-2002-00955-mum-correspondence(ipo)-(28-6-2004).pdf

in-pct-2002-00955-mum-drawing(21-6-2005).pdf

in-pct-2002-00955-mum-form 19(6-4-2004).pdf

in-pct-2002-00955-mum-form 1a(15-7-2002).pdf

in-pct-2002-00955-mum-form 2(granted)-(21-6-2005).doc

in-pct-2002-00955-mum-form 2(granted)-(21-6-2005).pdf

in-pct-2002-00955-mum-form 3(15-7-2002).pdf

in-pct-2002-00955-mum-form 3(21-6-2005).pdf

in-pct-2002-00955-mum-form 5(30-6-2005).pdf

in-pct-2002-00955-mum-form-pct-ipea-409(15-7-2002).pdf

in-pct-2002-00955-mum-petition under rule 137(30-6-2005).pdf

in-pct-2002-00955-mum-power of authority(15-7-2002).pdf

in-pct-2002-00955-mum-power of authority(21-6-2005).pdf

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Patent Number

198151

Indian Patent Application Number

IN/PCT/2002/00955/MUM

PG Journal Number

41/2007

Publication Date

12-Oct-2007

Grant Date

16-Jan-2006

Date of Filing

15-Jul-2002

Name of Patentee

GOYA B.V.

Applicant Address

WETHOUDER SANGERSSTRAAT 43, NL-6191 NA BEEK, THE NETHERLANDS.

Inventors:

#	Inventor's Name	Inventor's Address
1	JAN J.M. VAN DEN GOORBERGH	VRUSSCHEMIGERWEG 19, NL-6417 PB HEERLEN, THE NETHERLANDS.

PCT International Classification Number

B01D 29/15

PCT International Application Number

PCT/EP00/00558

PCT International Filing date

2000-01-24

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA